Publikation: Viscosity and scale invariance in the unitary Fermi gas
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We compute the shear viscosity of the unitary Fermi gas above the superfluid transition temperature, using a diagrammatic technique that starts from the exact Kubo formula. The formalism obeys a Ward identity associated with scale invariance which guarantees that the bulk viscosity vanishes identically. For the shear viscosity, vertex corrections and the associated Aslamazov-Larkin contributions are shown to be crucial to reproduce the full Boltzmann equation result in the high-temperature, low fugacity limit. The frequency dependent shear viscosity $\eta(\omega)$ exhibits a Drude-like transport peak and a power-law tail at large frequencies which is proportional to the Tan contact. The weight in the transport peak is given by the equilibrium pressure, in agreement with a sum rule due to Taylor and Randeria. Near the superfluid transition the peak width is of the order of $0.5 T_F$, thus invalidating a quasiparticle description. The ratio $\eta/s$ between the static shear viscosity and the entropy density exhibits a minimum near the superfluid transition temperature whose value is larger than the string theory bound $\hbar/(4\pi k_B)$ by a factor of about seven.
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ENSS, Tilman, Rudolf HAUSSMANN, Wilhelm ZWERGER, 2011. Viscosity and scale invariance in the unitary Fermi gas. In: Annals of Physics. 2011, 326(3), pp. 770-796. ISSN 0003-4916. Available under: doi: 10.1016/j.aop.2010.10.002BibTex
@article{Enss2011Visco-22022,
year={2011},
doi={10.1016/j.aop.2010.10.002},
title={Viscosity and scale invariance in the unitary Fermi gas},
number={3},
volume={326},
issn={0003-4916},
journal={Annals of Physics},
pages={770--796},
author={Enss, Tilman and Haussmann, Rudolf and Zwerger, Wilhelm}
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